Relation between local structure and glass forming ability of liquid alloys

Y. Waseda, H. S. Chen, K. T. Jacob, H. Shibata

Research output: Contribution to journalArticlepeer-review

1 Citation (Scopus)

Abstract

An attempt has been made to describe the glass forming ability (GFA) of liquid alloys, using the concepts of the short range order (SRO) and middle range order (MRO) characterizing the liquid structure. A new approach to obtain good GFA of liquid alloys is based on the following four main factors: (1) formation of new SRO and competitive correlation with two or more kinds of SROs for crystallization, (2) stabilization of dense random packing by interaction between different types of SRO, (3) formation of stable cluster (SC) or middle range order (MRO) by harmonious coupling of SROs, and (4) difference between SRO characterizing the liquid structure and the near-neighbor environment in the corresponding equilibrium crystalline phases. The atomic volume mismatch estimated from the cube of the atomic radius was found to be a close relation with the minimum solute concentration for glass formation. This empirical guideline enables us to provide the optimum solute concentration for good GFA in some ternary alloys. Model structures, denoted by Bernal type and the Chemical Order type, were again tested in the novel description for the glass structure as a function of solute concentration. We illustrated the related energetics of the completion between crystal embryo and different types of SRO. Recent systematic measurements also provide that thermal diffusivity of alloys in the liquid state may be a good indicator of their GFA.

Original languageEnglish
Pages (from-to)403-416
Number of pages14
JournalHigh Temperature Materials and Processes
Volume26
Issue number5-6
DOIs
Publication statusPublished - 2007 Jan 1

Keywords

  • Metallic glass: Short-range ordering
  • Middle-range ordering
  • Stable cluster: thermal diffusivity

ASJC Scopus subject areas

  • Materials Science(all)
  • Condensed Matter Physics
  • Mechanics of Materials
  • Physical and Theoretical Chemistry

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